Apparatus for extracting juices from citrus fruits and the like



Nov. 20, 1951 H. COHEN 2,575,584

APPARATUS FOR EXTRACTING JUICES FROM CITRUS FRUITS AND THE LIKE Filed Jan. 7, 195o 5 sheets-sheet 1 Nov. 20, 1951 H. COHEN 2,575,584

APPARATUS FOR EXTRACTING JUICES FROM CITRUS FRUITS AND THE LIKE Filed Jan. 7, 195o 5 sheets-sheet 2 A tjs.

H. COHEN 2,575,584

APPARATUS FOR EXTRACTING JUICES FROM CITRUS FRUITS AND THE LIKE Nov. 20, 1951 5 Sheets-Sheet 3 Filed Jan. '7, 1950 Invezor, Herman 007037Z A tlys.

H. COHEN Nov. zo, 1951 APPARATUS FOR 4EXTRACTING JUICES FROM CITRUS FRUITS AND THE LIKE 5 Sheets-Sheet 4 Filed Jan. 7, 1950 Nov. 20, 1951 COHEN, 2,575,584

APPARATUS FOR EXTRACTING JUICES FROM CITRUS FRUITS AND THE LIKE Filed Jan. 7, 1950 5 Sheets-Sheet 5 Inf/en tar', Herma?? Colzez A Ms.

Patented Nov. 20, 1951 UNITED STATES PATENTv OFFICE APPARATUS FOR EXTRA'CTING 'JUICES FROM CITRUS FRUITS AND THELIKE 4 Claims.

This invention relates to a methodv of and rapparatus for extracting juicesv fromcitrus fruits and the like, and pertains more particularly to automatic machines for extracting orange juice from ripe oranges..

In the citrus fruit industry, considerable time and effort have been expended in attempts to improve the quality and flavor of the canned juices of oranges, grapefruit or the like, so that the juices will be stable in flavor and free from the bitter oils derived from the skin of the fruit in the usual processing practices. These skin oils cause ,the canned fruit juices to have a less satisfactory flavor than fresh citrus fruit juices, and it is believed that the skin oils react with the metal of the tinned can to increase the bitter flavor which has heretofore been characteristic of canned fruit juices and fruit juice concentrates.

It is accordingly the purpose of the present invention to provide apparatus forA extracting citrus fruit juices, which will eliminate skin oils from the extracted juices, and which will rapidly provide a superior product in substantial quantities at a substantial saving in cost, as compared with the extracting methods now commonly `practiced.

A further object of the invention is to provide a machine Vfor continuously conveying fruitcontaining cups across the slotted top of asubstantially closed tank, and preferablybe'neath a pressure belt which progressively compresses the fruit during its travel across the tank; the tank being equipped with an air exhausting pump which maintains sub-atmospheric pressure therewithin, and containing a conveyor chain or the like equipped with longitudinally spaced suction tubes arranged to be successively projected through the slots in the top of the tank andv into openings in the respective fruit-carrying cups, whereby the j juice is extracted from the fruit in the respective cups through said. tubes, and drawn by suction into the tank and thence to a suitable reservoir or storage receptacle.

Another object of the invention is toy provide means for rotating the ysuction tubesand to'equip the tubes with automatically movable. vanesor wings which cut the websand segments of the fruity while theV juice is being withdrawn, and thus .ensure maximum extraction of the-f fruit juices.-

Further-novel features of the. invention will become apparent from the Vfollowing description of .the recommendedembodiment ef the improved apparatus illustrated on the accompanyingfdrawings, and will be pointedout in the appended claims. Inthedrawings.

(Cl. G-35) Fig. 1 is a diagrammatic elevational view, partly in section, show-ing 'a preferred form of apparatus forY automatically and continuously extracting citrus fruit juices, `in accordance with this invention;

Fig. 2 is'a plan .view of the apparatus-partly broken away, and. with certain elements vof `Fig-l omitted;

Fig. 3 is anfenlarge'dL section online 3-3 of Fig. l;

Fig. 4 is an'enlarged fragmentary detail view of oneof the .fruit'cupsand its conveyor belt, showing the suctionz tube and associated mechanism in `operative. position,l as on line` 4--4 Yof Fig. 1;

Fig. 5 is a transverse ysection on V`linerS--xi of Fig. 4;

Fig. 6 is a transverse section on line =6f6rof Fig. 4;

Fig. 7 is a detail elevational view, partly in section, of a modiiedl form of fruit cup, composed of rubber lor other resilient material, attached to its conveyor belt;

Fig. 8 is a view taken lon line 8-8 of Fig. 7, showing the cup in elevation and expanded to facilitate discharge of the dejuiced fruit;

Fig. 9 is a detail plan view of a metal cone or insert forming part of the cup structure shown in Figs. '7 and 8;

Fig. 9a is a fragmentary plan view of a protective metal cone forming part of the conveyor belt element shown in Figs. 7 and 8;

Fig. 10 is an enlarged fragmentary section, in elevation, taken on line lll-l0 of Fig. 3;

Fig. 11 is a fragmentary plan view of the apparatus shown in Fig. 10, successively broken away, and taken on line I I-II of Fig. 3, with the fruit omitted from the cups; and

Fig. l2 is a fragmentary sectional view, partly in elevation, of a modified form of mechanism similar to the extracting mechanism illustrated in Fig; 10, but adapted for the extraction of the contents of` van egg without shattering the eggslfiell..

In the juice. extracting `mechanismshown Vin Figs. 1 to 11, the machine comprises a tank. 20 having a flat top 22.formed.with parallel, longitudinal slots 24, and having bottom walls 26 inclining toward anoutlet-28 to which is connected a discharge pipe30 equipped with-a vacuum pump 32, the outlet pipeA leading to a suitable storage reservoir for the fruit juices drawn from Vthe tank. Thepump 32 is of suitabledesign and construction to ensure a continuous state of partial vacuum within the tank 20", and to draw off the juice'sucked from the `fruit into the-tank the bottom of the' cup (Fig. 4).

as hereinafter explained. A conveyor belt 34, carried by a drive roll 36, a discharge roll 38, and guide rolls 40 and 42, passes longitudinally around the tank with its upper run normally bearing on the tank top 22. The belt thus tends to seal the slots 24 in the tank top, thereby preventing excessive leakage of air into the tank. Y

The belt 34 carries Va plurality of fruit-holding cups 44, suitably attached to the outer surface thereof in spaced longitudinal relation, and preferably in a multiple series of longitudinal rows. The fruit cups 44 may be of metal or plastic material or, as shown in Figs. 7 and' 8, of rubber or other resilient material 44. Additional, peripherally slotted guide rolls 4t and 48 may be provided beneath the lower run or course of the belt 34, as shown in Figs. 1 and 3; the slots of the rolls accommodating Ythe rows of cups.

Each of the cups 44 is provided with a bott-torn opening 50; and the cup bottoms are preferf-a'bly mounted upon a tubular member 52 of flexible metal, having a flange fastened to the top of --the belt 34 by fastenings 54 (Fig. 4).

'I'he belt 34 is apertured immediately beneath each of the 'coupling members 52, and each aper- 'ture is preferably reinforced by a slotted metal 1cone 55, held in place by the fastenings '54. The 'icone 56, the holder coupling 52, and the opening 50 of each cup 44 are in registration and are ladapted to receive one of a series of suction tubes .58, when the latter are projected through the slot 24 of the tank top as hereinafter described.

'The cones 56 protect'the'belt 34 from being pierced by the tip of the suction tubes and'serve to direct the tube toward the cup opening 58 which may be reinforced by a ring 60 applied to The suction tubes 58 are spaced longitudinally along a conveyor chain or beltv 62 carried'by sprockets 64 and 66 mounted at opposite ends of the tank 20 upon shafts 68 and 'l0 which are suitably journaled in the sides of the tank. The

' `longitudinal spacing of the suction tubes 58 on the conveyor chain 62 corresponds to the spacing of the fruit cups 44 on the belt 34. Sprocket 64 is driven by a chain or belt 'l2 suitably'geared to the shaft 68 and to the shaft 14 of the drive roll or pulley 36, so that chain 62 and belt 34 are driven at the same speed. Y

`A suitable motor 16 drives shaft 14 through'a chain or belt 18, suitably geared to said shaft and vto a gear or sprocket in a gear box 80 associated with the4 motor shaft.

A plurality of parallel tube-carrying conveyor chains 62 are preferably provided, to correspond with the number of rows of cups on the belt 34, the rows of chains and rows of cups being in operative relation with each other and with the slots 24 in the tank top. As best shown in Fig. 4, selected links 82 of each chain 62 receive the base 84 of a hollow suction tube 58, said base having a threaded end to which a nut 86 is applied. For the purpose of rotating the tube 64, in accord- -ance with the preferred form of the apparatus, the tube base is provided ,with a gear 88 disposed between a collar S of the tube and an antifriction bearing 93 resting on the chain link 82, the parts being held in assembled relation by the nut 86. The gear 88 may be press-iitted on the tube base and may be additionally securedv against rotation by a screw 92, or equivalent means.

In its upper course of travel, each chain passes through a guide frame or bracket 94, suitably fastened to the bottom surface of the tank top 22, and so constructed as to control the Vllil position of the conveyor chain and its suction tubes with relation to the tank top, and preferably to cause rotation of the tube. The guide bracket also serves to govern the operation of the movable cutting vanes or wings with which each tube is preferably equipped as hereinafter explained. The sides of the guide bracket for eachchain 62 are provided with inwardly directed flanges 96 upon which the chain rides while passing through the bracket. The bracket as a whole slopes upwardly from its ends, as shown in Fig. l, and the guide anges S6 are similarly curved so that their ends are at a greater distance from the tank top than their central portions, whereby the chain and the suction tubes connected thereto are gradually elevated to maximum height at the central portion of the bracket, where the tubes project'upwardly through the slot 24, through the bottom of the cup 44, and into lthe orange'or other citrus fruit 98 deposited in the respective cups. The guide anges S3 thence curve downwardly towards the opposite end 0f the bracket, thereby retracting the suction tubes from the cups (Fig. 1).

The gear 88 engages a rack |60 at one side of the bracket 534, so that the tube is rotated as it passes through the bracket. The rack |40 follows the contour of the guides 96.

Each suction tube 58 is preferably provided with a removable, solid tip member |02 having a pointed end and having slots |84 in its opposite sides, each of said slots receiving one of a pair of wings |06 so connected to a vertically movable stem or rod |08 that the wings are extended laterally when the rod is moved downward. The slots |04 also provide entrance ports to the hollow tube part 5B.- The wings |06 are pivoted vto the tube tip |02 at I I0, and carry slotted, actuating arms ||2 respectively hinged to the upper end of a vertically movable stem |08, to effect the outward swinging movement of the cutting wings when the stem is moved downwardly.

Movement of the stem or rod |08 is controlled by other guide members in the guide bracket or frame 84, the bottom portion ||4 of thelstem being connected to the lower element ||6 of a spring pressed collar or shoe having a co-operating upper member H8, said collar elements riding between base flanges |20 of bracket 94 and cooperating flanges |22 bolted to the sides of the bracket 94 to provide a guide channel |24 for the composite shoe ||5-||8, as shown in Fig. 4. The coiled spring |25 between the collar elements serves to maintain resilient tension of the guide shoe against the opposite walls of said channel.

The channel 24 follows the slope of the guide flanges 86 at the opposite ends of the guide bracket 94, so that the movable stem |08| 4 is maintained in normally elevated position with respect to the suction tube, thereby holding the wings |06 in retracd position as shown in full lines in Fig. 4, during the travel of the conveyor chain 62 in those end portions of the guide bracket. The channel |24 slopes downwardly` at |26 in the central portion of the bracket, as shown in full lines in Fig. 1 and in broken lines in Fig. 4, thereby moving the stem |08, |4 downwardly within the suction tube and causing the wings |06 to be swung outwardly to the broken line position of Fig. 4. The channel 24 then slopes upwardly again (toward the right of Fig. l) to elevate the reciprocating stem and restore the wings |06 to normal, inoperative position.

Said stem rotates with the suction tube, the parts being suitably interconnected against relai- |06."-N Hence.,awhen-the'cutting. wingsgarefswuns outwardlyxthey are` rotated withlnltheafruit 88, toi break vthe.: pulp and fruit. segments-'of the orange, and thus :assist infreeing the .fruit iuices for extraction by; suction, The extreme @upper endof thetube tip |02 iszpointed.,sothat;y it readily vpierces:tim-skin or` rind .ofrthefruit when it is projected upwardly through;V theibottomtof the Ycup 44. v

The oranges .ortother citrus ,fruitLmay be de.- posited; in the Vcups 44 from-a hopperflw hawiiu,y discharge spouts|32 disposed immediately above 'the path of. .traveloi-,therespective rowsv of.;oups. A manually or,rnechanically.operated;A handle .|34 may be', providedzto control the; dropping: of.v the fruit; through the; spoutsi fthe structural-details of the: .depositing-V Vinechanism;r Vbeing:l immaterial to; the. present` invention.v

In order to hold the fruii'Linthe cups :441whilel they are beingpiercedyas aforesaid; byrthetip's of the' suction. tubes, Vand to exert squeezing pressure thereon, a continuous pressure belt |36 is supported above the rows of cups on a driven .roller |38 and a guide roller |40. Roller`|38 has a shaft |42 driven through a sprocket'l or gear from thernainV drive shaft 14, by a chain or belt |44. The lower course of vthe'belt |36 is held in resilient, pressing engagement with'the tops of. the deposited fruit, by providing a series of transverse pressurerollers |46, |48, |50. and |52, the axles of which are journaled inbrackets |54 suitably xed to a stationary rail |56: The brackets k|54 include springs |58'which resiliently press -said axles downwardly to tension the lower course of the belt |36 against the oranges, the

vertical position of said rollers and the degreel of tension thereon being manually adjustable by screws |60. Said screws are so regulated that the rollers |46|52 exert progressively increasing pressure on the belt |36, so that the fruit in the cups 44 is progressively compressed while being pierced by and receiving the suction tubes, to squeeze the juice therefrom and permit it to be sucked downwardly through the tubes 58, the ow of juice being indicated by the arrows in Fig. 4. In the intermediate Kstage of such progressive compression, the cutting wings |06 are automatically opened and rotated by the mechanism above described.

Maximum compression of the fruit thus occurs beneath the pressure roller |52 shortly after the rotating wings have been closed and just prior to the retraction of the suction tubes fromthe cups 44. provided to hold the belt on the compressed rinds in the cups during nal retraction of said tubes. As the belt 34 passes over the end roller 38, the exhausted rinds of the fruit drop from the cups 44 and may be collected in a receiver |64, whence they may be conveyed to another machine for further processing into by-products.

The discharge of the rinds is facilitated by making the cups of rubber or other resilient material as indicated at 44' in Figs. 7 and 8,

whereby the cups are expanded as the belt 34 is curved in passing over roller 38 (Fig. 8). The opening in the bottom of the cups 44' may be reinforced by a slotted cone |66 as indicated in Figs. 7 and 9, the cone serving to guide the point of the tube tip |02 through the bottom opening of the cup. l

It will be apparent from the foregoing that th juice extracting machine operates automatically to move the rows of fruit cups on the belt 34 over the top of the tank 20, while the rows of suction An auxiliary guide roller |62 may be tubes'. mounted: on the conveyor chains.y 621 are moving. in synchronism within the tank, :each conveyor ohainpassingtbrough .theguide bracket or housing 94,.so.that the tips of the tubesere gradually elevatedV through the slots- 24 of the tank top and thence through. .the openings inthe belt andv intov the apertured bottomsof the cups 44, to Dierceithefruit.depositedtherein., After the tubes have been'projected into the fruit, while the latteriarexyieldingly pressed into the .cups by thepressurezbelt |36, the cuttingwings |06 are extended,v oropened by movementof Vstem |08,

and caused tofrotate bythe rackand gear mecha` anism which rotatesthe tubes, to out the pulp of thefruit, landpermit the fruit juice to be sucked downwardly: through4 the tubes 58 into theV ,tank il` by the.A partial v.vacuum maintained therein. The juice passes '.downwardlythrough: the suction tubes: andthroug-h; theguide mechanism, land collects in the' bottom of the tank, whence` it is pumped to a .suitable storage reservoir through .the outlets 28., 36'after which the juicev may be canned in accordance iwith conventional prac:- tices. Inasrnuch asy the juice is suckedz downwardly through the tube penetrating the interior of the fruit, none of the bitter oils of the skin :or rind will be present in the extracted..juice;`

In the modification shown in Fig. l2, designed for the extraction of the fluids of an egg, the belt 234 (corresponding to the belt 34) is vequipped with cups shaped to receive an egg Ldeposited therein by hand or. otherwise, and said belt 2.34 travels over the .slotted tank top 22, as aforesaid. Suctiontubes 258 (corresponding to the tubes58 but omitting rotational mechanism and the cutting wings |06) are carried by a conveyor chain 262 (similar to the chain 62) through a guide bracket 294 (corresponding to the bracket 94) but having only one set of guide flanges 296 for elevating the tubes to pierce the bottom of the egg shell.

The compression belt |36 of Figs. l-ll is omitted in this modification, and other mechanism is provided for piercing the top of the eggs 298, at the moment the tips of the suction tubes 258 penetrate the bottom thereof. Such mechanism may comprise a pivoted crank arm 300 carrying a piercing implement 302, and actuated against spring resistance by a cam 304, in synchronism with the movement of the belt 234 and chain 262. A stop bar 306 limits downward movement of the piercing pin 302. The cam 304 may be so designed a-s to operate the arm and piercing pin with a quick, snap action, so that continuous movement of the eggs carried by the cups 244 on the belt 234, is not impeded.

After the suction tube has penetrated the pierced egg, as shown at the right of Fig. l2, the suction within the tank 20 extracts the fluid from the egg shell, and the tube 258 is retracted as aforesaid. The empty shells drop from the cups 244, as the belt 234 travels over the roller at the discharge end of the machine. It is thus apparent that the apparatus herein disclosed may be adapted for extracting fluids or juices from eggs, as well as from citrus fruits or the like; and it is intended that the appended claims will cover any uses for which the method or apparatus of this invention may be adapted.

I claim:

l. Apparatus for extracting juice from citrus fruits and the like, comprising a tank having a slotted top, a pump for partially exhausting air from the tank, a conveyor movable longitudinally within the tank beneath a slot in the top thereof, suction tubes spaced longitudinally along said `conveyor and adapted intermittently to be 'pro'- jected through said slot, a conveyor belt movable longitudinally around the tank and over the slotted surface of thetank top, cups spaced longitudinally along the outer surface of said conveyor belt and adapted to receive and transport fruit ldeposited therein, the spacing of the cups being substantially the same as the spacing of said tubes, the bottom of said cupsl and said belt having registering openings positioned over said slot in the tank during movement of said conveyor belt and cups over the slotted surface of the tank top, guide means mounted in the tank beneath said top of the tank and engaging said conveyor, whereby a portion of the mcivingV conveyor is gradually elevated to project the suction tubes thereon successively through said slot in the tank, through the respective belt and cup openings, and into the fruit within the respectivecups'mov- :ingin succession', and then to withdraw the tubes .successively into the tank, and means for driv'- ing said conveyor and conveyor belt in synchronism.

' 2. Apparatus as described in claim 1, having a pressure belt movable in spaced relation to said conveyor belt and adapted to engage the tops of the fruit in the respective cups While said fruit 'is penetrated by said tubes, and resilient means for gradually increasing the pressure exerted by said pressure belt `on the fruit in successive cups.

3. Apparatus as described in claim 1, having means associated with said guide means and tubes for rotating said tubes, the tubes having hinged Wings at the upper ends thereof, means including a stem within each tube for extending "and retractingv said wings, and meansas'sociated with said guide means and said stem for raising and lowering the stem to actuate said wings while the upper ends of the respective tubes are pro- 5 jected into the respective fruits.

li. Apparatus as described in claim 1, having means associated with said guide means and tubes for rotating said tubes, the tubes having hinged 'Wings at the-upper ends thereof, means including astem Within each tube for extending and retracting said wings, means associated with said 'guide means and said `stern for raising and lowering the stem to actuate said wings While the upper ends of the respective tubes are projected into the respective fruits, a pressure belt movable .in spaced relation to said conveyor belt and -adapted to engage the tops'of the fruit in the .respective cups While said fruit is penetrated by said tubes, and resilient means for gradually inicreasing the pressure exerted by said pressure ebelt on the fruit in successive cups.

HERMAN COHEN.

REFERENCES CITED l The `fllovving references are of record in the file o'f this patent:

UNITED STATES PATENTS Number Name Date 30 Y 2,353,841 McKinnis July 18, 1944 2,445,490 Meade July 20, 1948 2,446,812 Cribb Aug. 10, 1948 2,475,559 Wilson July 5, 1949 2,511,374 Rahrer June 13, 1950 

